新材料十大热点研究报告提纲
1、研究相关文献,分析研究热点和研究方向
2、国际发达国家相关方向研究计划和研究热点
3、研究方向的现状和技术发展趋势
4、未来应用前景分析(可能对世界科技、经济、社会等带来的影响)
5、我国目前研究现状和研发水平
6、我国研究发展的建议
1.石墨烯及其氧化物的溶液功能化(15962,1)何大方\\文彬 INDIVIDUAL CHEMICALLY REDUCED GRAPHENE OXIDE SHEETS SOLUTION-PROCESSED REDUCED GRAPHENE OXIDE FILMS
GRAPHENE OXIDE DOPED POLYANILINE
GRAPHENE OXIDE PAPER
FUNCTIONALIZED SINGLE GRAPHENE SHEETS DERIVED
2.大面积、单层石墨烯的生长(2158,33)吉成\\文哲
QUASI-FREE-STANDING EPITAXIAL GRAPHENE
HOMOGENEOUS LARGE-AREA GRAPHENE LAYER GROWTH
GRAPHENE THIN FILM GROWTH
HOMOGENEOUS LARGE-TERRACE GRAPHENE SURFACES
WAFER-SIZE GRAPHENE LAYERS
3.基于石墨烯的复合物(1820,47)何大方\\振华
PH-RESPONSIVE GRAPHENE OXIDE INTERPENETRATING POLYMER HYDROGEL NETWORKS
HIGHLY CONDUCTIVE MULTIFUNCTIONAL GRAPHENE POLYCARBONATE NANOCOMPOSITES
GRAPHENE FILLED POLYMER NANOCOMPOSITES
PH-SENSITIVE GRAPHENE OXIDE COMPOSITE HYDROGEL
4.石墨烯及其他碳材料量子点(1212,79)邱新明\\黄凯 Carbon quantum dots
WATER-SOLUBLE FLUORESCENT CARBON QUANTUM DOTS
GREEN-LUMINESCENT GRAPHENE QUANTUM DOTS
5.氮掺杂的石墨烯(1196,80)吉成\\立宇\\邱新明
NITROGEN-DOPED GRAPHENE NANOSHEETS
NITROGEN-DOPED GRAPHENE FILMS
EFFICIENT METAL-FREE OXYGEN REDUCTION
OXYGEN REDUCTION REACTION
OXYGEN REDUCTION REACTIONS
6.外延生长石墨烯的光电器件(1042,92)查晨阳\\连超 ULTRAFAST GRAPHENE PHOTODETECTOR
GRAPHENE MODE-LOCKED ULTRATAST LASER
ULTRAFAST CARRIER DYNAMICS
EPITAXIAL GRAPHENE
GRAPHENE PHOTONICS
7.碳纳米管-聚合物复合材料(2023,38)高凌\\凤娟
POLYMER NANOCOMPOSITES
CARBON NANOTUBES
MULTIWALL CARBON NANOTUBE ELASTOMERIC COMPOSITES MULTIWALLED CARBON NANOTUBES FUNCTIONALIZED
CARBON NANOTUBE-POLYMER COMPOSITES
SINGLE WALL CARBON NANOTUBE/POLYETHYLENE NANOCOMPOSITES
8.碳纳米管柔性透明导电薄膜(2799,19)高凌
TRANSPARENT CONDUCTING CARBON NANOTUBE FILMS
CARBON NANOTUBE-BASED FLEXIBLE TRANSPARENT CONDUCTING FILMS
PRINTING CARBON NANOTUBE THIN FILMS
FLEXIBLE CARBON NANOTUBE FILMS
HIGHLY CONDUCTIVE THIN FILMS BASED
9.碳纳米管仿生结构涂层(1759,49)王仙
MUSSEL ADHESIVE PROTEIN INSPIRED COATINGS
UNDERSTANDING MARINE MUSSEL ADHESION
GECKO-FOOT-MIMETIC ALIGNED SINGLE-WALLED CARBON NANOTUBE DRY ADHESIVES
GECKO-INSPIRED HIERARCHICAL FIBRILLAR ADHESIVES
MUSSEL-INSPIRED SURFACE CHEMISTRY